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307 lines
10 KiB
C++
307 lines
10 KiB
C++
#include <SFML/System/Time.hpp>
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#include <doctest/doctest.h>
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#include <SystemUtil.hpp>
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#include <type_traits>
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static_assert(std::is_copy_constructible_v<sf::Time>);
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static_assert(std::is_copy_assignable_v<sf::Time>);
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static_assert(std::is_nothrow_move_constructible_v<sf::Time>);
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static_assert(std::is_nothrow_move_assignable_v<sf::Time>);
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using namespace std::chrono_literals;
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// Use StringMaker to avoid opening namespace std
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namespace doctest
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{
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template <typename Rep, typename Period>
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struct StringMaker<std::chrono::duration<Rep, Period>>
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{
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static String convert(const std::chrono::duration<Rep, Period>& duration)
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{
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return toString(std::chrono::microseconds(duration).count()) + "us";
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}
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};
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} // namespace doctest
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TEST_CASE("[System] sf::Time")
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{
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SUBCASE("Construction")
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{
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SUBCASE("Default constructor")
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{
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const sf::Time time;
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CHECK(time.asSeconds() == 0.0f);
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CHECK(time.asMilliseconds() == 0);
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CHECK(time.asMicroseconds() == 0);
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}
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SUBCASE("Construct from seconds")
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{
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const sf::Time time = sf::seconds(123);
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CHECK(time.asSeconds() == 123.0f);
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CHECK(time.asMilliseconds() == 123'000);
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CHECK(time.asMicroseconds() == 123'000'000);
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CHECK(sf::seconds(1'000.0f).asMicroseconds() == 1'000'000'000);
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CHECK(sf::seconds(0.0000009f).asMicroseconds() == 0);
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CHECK(sf::seconds(0.0000001f).asMicroseconds() == 0);
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CHECK(sf::seconds(0.00000001f).asMicroseconds() == 0);
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CHECK(sf::seconds(0.000000001f).asMicroseconds() == 0);
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CHECK(sf::seconds(-0.000000001f).asMicroseconds() == 0);
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CHECK(sf::seconds(-0.00000001f).asMicroseconds() == 0);
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CHECK(sf::seconds(-0.0000001f).asMicroseconds() == 0);
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CHECK(sf::seconds(-0.0000009f).asMicroseconds() == 0);
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CHECK(sf::seconds(-1'000.0f).asMicroseconds() == -1'000'000'000);
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}
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SUBCASE("Construct from milliseconds")
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{
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const sf::Time time = sf::milliseconds(42);
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CHECK(time.asSeconds() == 0.042f);
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CHECK(time.asMilliseconds() == 42);
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CHECK(time.asMicroseconds() == 42'000);
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}
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SUBCASE("Construct from microseconds")
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{
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const sf::Time time = sf::microseconds(987654);
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CHECK(time.asSeconds() == 0.987654f);
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CHECK(time.asMilliseconds() == 987);
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CHECK(time.asMicroseconds() == 987'654);
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}
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SUBCASE("Convert from chrono duration")
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{
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{
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const sf::Time time = 3min;
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CHECK(time.asSeconds() == 180.f);
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CHECK(time.asMilliseconds() == 180'000);
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CHECK(time.asMicroseconds() == 180'000'000);
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}
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{
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const sf::Time time = 1s;
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CHECK(time.asSeconds() == 1.f);
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CHECK(time.asMilliseconds() == 1'000);
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CHECK(time.asMicroseconds() == 1'000'000);
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}
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{
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const sf::Time time = 10ms;
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CHECK(time.asSeconds() == 0.01f);
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CHECK(time.asMilliseconds() == 10);
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CHECK(time.asMicroseconds() == 10'000);
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}
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{
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const sf::Time time = 2048us;
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CHECK(time.asSeconds() == 0.002048f);
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CHECK(time.asMilliseconds() == 2);
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CHECK(time.asMicroseconds() == 2048);
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}
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}
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}
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SUBCASE("toDuration()")
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{
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CHECK(sf::seconds(0).toDuration() == 0s);
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CHECK(sf::milliseconds(0).toDuration() == 0ms);
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CHECK(sf::microseconds(0).toDuration() == 0us);
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CHECK(sf::seconds(-1).toDuration() == -1s);
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CHECK(sf::milliseconds(-1).toDuration() == -1ms);
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CHECK(sf::microseconds(-1).toDuration() == -1us);
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CHECK(sf::seconds(1).toDuration() == 1s);
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CHECK(sf::milliseconds(1).toDuration() == 1ms);
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CHECK(sf::microseconds(1).toDuration() == 1us);
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CHECK(sf::seconds(-10).toDuration() == -10s);
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CHECK(sf::milliseconds(-10).toDuration() == -10ms);
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CHECK(sf::microseconds(-10).toDuration() == -10us);
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CHECK(sf::seconds(10).toDuration() == 10s);
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CHECK(sf::milliseconds(10).toDuration() == 10ms);
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CHECK(sf::microseconds(10).toDuration() == 10us);
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CHECK(sf::Time(1s).toDuration() == 1s);
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CHECK(sf::Time(1ms).toDuration() == 1ms);
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CHECK(sf::Time(1us).toDuration() == 1us);
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}
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SUBCASE("Implicit conversion to duration")
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{
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const auto toDuration = [](const std::chrono::microseconds& duration) { return duration; };
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CHECK(toDuration(sf::seconds(0)) == 0s);
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CHECK(toDuration(sf::milliseconds(0)) == 0ms);
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CHECK(toDuration(sf::microseconds(0)) == 0us);
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CHECK(toDuration(sf::seconds(-1)) == -1s);
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CHECK(toDuration(sf::milliseconds(-1)) == -1ms);
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CHECK(toDuration(sf::microseconds(-1)) == -1us);
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CHECK(toDuration(sf::seconds(1)) == 1s);
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CHECK(toDuration(sf::milliseconds(1)) == 1ms);
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CHECK(toDuration(sf::microseconds(1)) == 1us);
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CHECK(toDuration(sf::seconds(-10)) == -10s);
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CHECK(toDuration(sf::milliseconds(-10)) == -10ms);
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CHECK(toDuration(sf::microseconds(-10)) == -10us);
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CHECK(toDuration(sf::seconds(10)) == 10s);
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CHECK(toDuration(sf::milliseconds(10)) == 10ms);
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CHECK(toDuration(sf::microseconds(10)) == 10us);
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CHECK(toDuration(sf::Time(1s)) == 1s);
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CHECK(toDuration(sf::Time(1ms)) == 1ms);
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CHECK(toDuration(sf::Time(1us)) == 1us);
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}
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SUBCASE("Zero time")
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{
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CHECK(sf::Time::Zero.asSeconds() == 0.0f);
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CHECK(sf::Time::Zero.asMilliseconds() == 0);
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CHECK(sf::Time::Zero.asMicroseconds() == 0);
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}
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SUBCASE("Operators")
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{
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SUBCASE("operator==")
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{
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CHECK(sf::Time() == sf::Time());
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CHECK(sf::seconds(1) == sf::seconds(1));
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CHECK(sf::seconds(10) == sf::milliseconds(10'000));
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CHECK(sf::milliseconds(450'450) == sf::microseconds(450'450'000));
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CHECK(sf::seconds(0.5f) == sf::microseconds(500'000));
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}
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SUBCASE("operator!=")
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{
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CHECK(sf::seconds(10.12f) != sf::milliseconds(10'121));
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CHECK(sf::microseconds(123'456) != sf::milliseconds(123));
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}
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SUBCASE("operator<")
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{
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CHECK(sf::seconds(54.999f) < sf::seconds(55));
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CHECK(sf::microseconds(10) < sf::milliseconds(10));
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CHECK(sf::milliseconds(1'000) < sf::microseconds(1'000'001));
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}
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SUBCASE("operator>")
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{
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CHECK(sf::seconds(55.001f) > sf::seconds(55));
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CHECK(sf::microseconds(1) > sf::seconds(0.0000001f));
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CHECK(sf::microseconds(1'000'001) > sf::milliseconds(1'000));
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}
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SUBCASE("operator<=")
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{
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CHECK(sf::milliseconds(100) <= sf::milliseconds(100));
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CHECK(sf::seconds(0.0012f) <= sf::microseconds(1'201));
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}
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SUBCASE("operator>=")
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{
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CHECK(sf::milliseconds(100) >= sf::milliseconds(-100));
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CHECK(sf::microseconds(1'201) >= sf::seconds(0.0012f));
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}
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SUBCASE("operator-")
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{
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CHECK(sf::seconds(-1) == -sf::seconds(1));
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CHECK(sf::microseconds(1'234) == -sf::microseconds(-1'234));
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}
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SUBCASE("operator+")
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{
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CHECK(sf::seconds(1) + sf::seconds(1) == sf::seconds(2));
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CHECK(sf::milliseconds(400) + sf::microseconds(400) == sf::microseconds(400400));
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}
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SUBCASE("operator+=")
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{
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sf::Time time = sf::seconds(1.5f);
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time += sf::seconds(1);
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CHECK(time == sf::seconds(2.5f));
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}
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SUBCASE("operator-")
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{
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CHECK(sf::seconds(1) - sf::seconds(1) == sf::seconds(0));
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CHECK(sf::milliseconds(400) - sf::microseconds(400) == sf::microseconds(399600));
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}
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SUBCASE("operator-=")
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{
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sf::Time time = sf::seconds(1.5f);
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time -= sf::seconds(10);
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CHECK(time == sf::seconds(-8.5f));
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}
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SUBCASE("operator*")
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{
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CHECK(sf::seconds(1) * 2.0f == sf::seconds(2));
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CHECK(sf::seconds(12) * 0.5f == sf::seconds(6));
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CHECK(sf::seconds(1) * static_cast<std::int64_t>(2) == sf::seconds(2));
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CHECK(sf::seconds(42) * static_cast<std::int64_t>(2) == sf::seconds(84));
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CHECK(2.0f * sf::seconds(1) == sf::seconds(2));
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CHECK(0.5f * sf::seconds(12) == sf::seconds(6));
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CHECK(static_cast<std::int64_t>(2) * sf::seconds(1) == sf::seconds(2));
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CHECK(static_cast<std::int64_t>(2) * sf::seconds(42) == sf::seconds(84));
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}
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SUBCASE("operator*=")
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{
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sf::Time time = sf::milliseconds(1'000);
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time *= static_cast<std::int64_t>(10);
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CHECK(time == sf::milliseconds(10'000));
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time *= 0.1f;
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CHECK(time.asMilliseconds() == 1'000);
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}
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SUBCASE("operator/")
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{
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CHECK(sf::seconds(1) / 2.0f == sf::seconds(0.5f));
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CHECK(sf::seconds(12) / 0.5f == sf::seconds(24));
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CHECK(sf::seconds(1) / static_cast<std::int64_t>(2) == sf::seconds(0.5f));
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CHECK(sf::seconds(42) / static_cast<std::int64_t>(2) == sf::seconds(21));
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CHECK(sf::seconds(1) / sf::seconds(1) == 1.0f);
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CHECK(sf::milliseconds(10) / sf::microseconds(1) == Approx(10'000.f));
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}
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SUBCASE("operator/=")
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{
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sf::Time time = sf::milliseconds(1'000);
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time /= static_cast<std::int64_t>(2);
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CHECK(time == sf::milliseconds(500));
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time /= 0.5f;
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CHECK(time.asMilliseconds() == 1'000);
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}
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SUBCASE("operator%")
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{
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CHECK(sf::seconds(10) % sf::seconds(3) == sf::seconds(1));
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CHECK(sf::milliseconds(100) % sf::microseconds(10) == sf::seconds(0));
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}
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SUBCASE("operator%=")
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{
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sf::Time time = sf::milliseconds(100);
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time %= sf::milliseconds(99);
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CHECK(time == sf::milliseconds(1));
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}
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}
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SUBCASE("Constexpr support")
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{
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constexpr auto result = []
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{
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sf::Time time = sf::milliseconds(100);
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time %= sf::milliseconds(99);
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return time;
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}();
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static_assert(result == sf::milliseconds(1));
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}
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}
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